Systems and methods for detecting atrial tachyarrhythmia using heart sounds

What is claimed is: 1. A system, comprising: a first signal metric generator circuit configured to determine a first beat-to-beat cardiac cycle length or heart rate and a second beat-to-beat cardiac cycle length or heart rate in a patient, and to generate a cardiac timing variation between the first beat-to-beat cardiac cycle length or heart rate and the second beat-to-beat cardiac cycle length or heart rate; a second signal metric generator circuit configured to generate an S4 heart sound metric using heart sound information of the patient, the S4 heart sound metric including an indication of absence of S4 heart sound in a cardiac cycle; and an atrial tachyarrhythmia (AT) detector circuit configured to detect an AT event of the patient using the generated cardiac timing variation and the S4 heart sound metric. 2. The system of claim 1 , wherein the first beat-to-beat cardiac cycle length or heart rate includes a first ventricular cycle length or a first ventricular heart rate, and the second beat-to-beat cardiac cycle length or heart rate includes a second ventricular cycle length or a second ventricular heart rate. 3. The system of claim 2 , wherein the cardiac timing variation includes a beat-to-beat ventricular cycle length difference or a beat-to-beat ventricular heart rate difference. 4. The system of claim 1 , wherein the AT detector circuit is configured to detect an AT event in response to (1) the generated cardiac timing variation satisfying a first condition, and (2) an indication of absence of S4 heart sound. 5. The system of claim 4 , wherein the second signal metric generator circuit is configured to generate an S4 morphology matching score with reference to an S4 template, and to determine a presence of S4 heart sound if the S4 morphology matching score exceeds an S4 metric threshold, or an absence of S4 heart sound if the S4 morphology matching score falls below the S4 metric threshold. 6. The system of claim 4 , wherein the generated cardiac timing variation includes a beat-to-beat ventricular cycle length difference over multiple cardiac cycles, and wherein the AT detector circuit is configured to detect an AT event in response to (1) the beat-to-beat ventricular cycle length difference exceeding a cycle length difference threshold, and (2) an indication of absence of S4 heart sound. 7. The system of claim 4 , wherein the AT detector circuit is configured to: determine, over a plurality of cardiac cycles: (1) a first relative number of cardiac cycles with respective beat-to-beat ventricular cycle length differences exceeding a cycle length difference threshold, and (2) a second relative number of cardiac cycles with respective S4 heart sound metrics exceeding an S4 metric threshold; and detect the AT event using the first and second relative numbers. 8. The system of claim 7 , wherein the AT detector circuit is configured to detect the AT event using a relative difference between the first relative number and the second relative number. 9. The system of claim 4 , comprising a beat selector circuit configured to select, from a plurality of cardiac cycles, a subset of cardiac cycles with respective indications of absence of S4 heart sound therewithin, and wherein: the signal metric generator circuit is configured to compute a beat-to-beat ventricular cycle length difference using the selected subset of the cardiac cycles; and the AT detector circuit is configured to detect the AT event in response to the computed beat-to-beat ventricular cycle length difference exceeding a threshold. 10. The system of claim 4 , comprising a beat selector circuit configured to select, from a plurality of cardiac cycles, a subset of cardiac cycles with respective beat-to-beat ventricular cycle length differences exceeding a cycle length difference threshold, wherein: the second signal metric generator circuit is configured to generate an indication of presence or absence of S4 heart sound within the selected subset of the cardiac cycles; and the AT detector circuit is configured to detect the AT event in response to an indication of absence of S4 heart sound within the selected subset of the cardiac cycles. 11. The system of claim 4 , wherein the AT detector circuit is configured to determine a cycle length difference threshold using the determined S4 heart sound metric, and to detect the AT event if the beat-to-beat ventricular cycle length difference exceeds the determined cycle length difference threshold. 12. The system of claim 1 , comprising an arrhythmia classifier circuit configured to classify the detected AT event as an atrial fibrillation event or an atrial flutter event using the generated cardiac timing variation and the generated S4 heart sound metric. 13. A method, comprising: determining, using a first signal metric generator circuit, a first beat-to-beat cardiac cycle length or heart rate and a second beat-to-beat cardiac cycle length or heart rate in a patient; generating, using the first signal generator circuit, a cardiac timing variation between the first beat-to-beat cardiac cycle length or heart rate and the second beat-to-beat cardiac cycle length or heart rate; generating, using a second signal metric generating circuit, an S4 heart sound metric using heart sound information of the patient, the S4 heart sound metric including an indication of absence of S4 heart sound in a cardiac cycle; and detecting, using an atrial tachyarrhythmia (AT) detector circuit, an AT event of the patient using the generated cardiac timing variation and the S4 heart sound metric. 14. The method of claim 13 , wherein the first beat-to-beat cardiac cycle length or heart rate includes a first ventricular cycle length or a first ventricular heart rate, and the second beat-to-beat cardiac cycle length or heart rate includes a second ventricular cycle length or a second ventricular heart rate. 15. The method of claim 13 , wherein detecting the AT event is in response to (1) the generated cardiac timing variation satisfying a first condition, and (2) an indication of absence of S4 heart sound. 16. The method of claim 15 , wherein generating the S4 heart sound metric includes computing an S4 morphology matching score with reference to an S4 template, and determining a presence of S4 heart sound if the S4 morphology matching score exceeds an S4 metric threshold, or an absence of S4 heart sound if the S4 morphology matching score falls below the S4 metric threshold. 17. The method of claim 15 , wherein the generated cardiac timing variation includes a beat-to-beat ventricular cycle length difference over multiple cardiac cycles, and wherein detecting the AT event is in response to (1) the beat-to-beat ventricular cycle length difference exceeding a cycle length difference threshold, and (2) an indication of absence of S4 heart sound. 18. The method of claim 15 , comprising: determining a cycle length difference threshold using the S4 heart sound metric; and detecting the AT event in response to a beat-to-beat ventricular cycle length difference exceeding the determined cycle length difference threshold. 19. The method of claim 15 , comprising: determining, over a plurality of cardiac cycles: (1) a first relative number of cardiac cycles with respective beat-to-beat ventricular cycle length differences exceeding a cycle length difference threshold, and (2) a second relative number of cardiac cycles with respective S4 heart sound metrics exceeding an S4 metric threshold; and detecting the AT event using a composite score of the first